In this study, the metabolic activities of five strains of Pediococcus spp., in terms of the quantities they produced of lactic acid, hydrogen peroxide, exopolysaccharides, and proteolytic activity, were determined. Lactic acid levels produced by these strains were found to be in the range of 2.5-5.6 mg/ml. All strains produced hydrogen peroxide. The P. pentosaceus Z13P strain produced the maximum amount (0.25 mg/ml) of proteolytic activity. Exopolysaccharide (EPS) production by the Pediococcus strains during growth in MRS (de Man, Rogosa, and Sharpe) medium was in the range 25-64 mg/l. The susceptibility of 10 different antibiotics against these strains was also tested. All strains were found to be resistant to amoxicillin, gentamicin, and vancomycin. Antimicrobial effects of the Pediococcus spp. on pathogens were also determined by an agar diffusion method. All of the strains were able to inhibit L. monocytogenes. The tolerance of the strains to low pH, their resistance to bile salts of strains, and their abilities to autoaggregate and coaggregate with L. monocytogenes were also evaluated.
In the present study, a total of used six lactic acid bacterial strains that isolated from children's feces and milk products. This study investigated the exopolysacch aride production of these strains. In the culture broth, highest exopolysaccharide production capacity was detected in GD-11, LB-69, and B-3 strains. Monosaccharide compositions of the exopolysaccharides that were purified and lyophilized in the culture medium were investigated and dominant monomer was found to be mannose in all strains. The biofilmforming capacity of 13 pathogen bacteria was determined and four strains with the highest biofilm-forming capacity were selected as test bacteria for anti-biofilm studies. Different concentrations of l-exopolysaccharides of three lactic acid bacteria were tested for anti-biofilm effect. Highest antibiofilm effects were exhibited by the L. fermentum LB-69 (90%) against B. cereus RSKK 863. In the statistical analyses performed using the available data, a strong correlation was found between the amount of mannose present in l-exopolysaccharides and the anti-biofilm activity exhibited by l-exopolysaccharides (p < 0.01). In this study, it was concluded that the l-exopolysaccharides of the L. fermentum LB-69 strain could be used as efficient agents with both bifidogenic growth stimulator effect and antibiofilm effect. If these agents are taken via oral route, it would be possible to provide beneficial effects for the host by increasing the development of bifidobacteria present in the gastrointestinal tract as well as to prevent and treat the diseases by hindering the biofilm formation by harmful bacteria.
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